Formation of Superoxo Species by Interaction of O-2 with Na Atoms Deposited on MgO Powders: A Combined Continuous-Wave EPR (CW-EPR), Hyperfine Sublevel Correlation (HYSCORE) and DFT Study

The formation of O-2(-) radical anions by contact of O-2 molecules with a Na pre-covered MgO surface is studied by a combined EPR and quantum chemical approach. Na atoms deposited on polycrystalline MgO samples are brought into contact with O-2. The typical EPR signal of isolated Na atoms disappears when the reaction with O-2 takes place and new paramagnetic species are observed, which are attributed to different surface-stabilised O-2(-) raclicals. Hyperfine sublevel correlation (HYSCORE) spectroscopy allows the superhyperfine interaction tensor of O2-Na+ species to be demonstrating the direct of the O-2(-) adsorbate to determined, coordination surface Na+ cations. DFT calculations enable the structural details of the formed species to be determined. Matrix-isolated alkali superoxides are used as a standard to enable comparison of the formed species, revealing important and unexpected contributions of the MgO matrix in determining the electronic structure of the surface-stabilised Na+-O-2(-) complexes.